Modeling the effects of variable feeding patterns of larval ticks on the transmission of Borrelia lusitaniae and Borrelia afzelii

Modeling the effects of variable feeding patterns of larval ticks on the transmission of Borrelia lusitaniae and Borrelia afzelii

Spirochetes belonging to the Borrelia burgdoferi sensu lato (sl) group cause Lyme Borreliosis (LB), which is the most commonly reported vector-borne zoonosis in Europe. B. burgdorferi sl is maintained in nature in a complex cycle involving Ixodes ricinus ticks and several species of vertebrate hosts...

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Veröffentlicht in:Theoretical population biology 2017-08, Vol.116, p.27-32
Hauptverfasser: Ferreri, Luca, Perazzo, Silvia, Venturino, Ezio, Giacobini, Mario, Bertolotti, Luigi, Mannelli, Alessandro
Format: Artikel
Sprache:eng
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Animals
Borrelia
Borrelia afzelii
Borrelia burgdorferi Group
Borrelia lusitaniae
Europe
Feeding Behavior
Larva - microbiology
Lizard
Lizards
Lyme disease
Lyme Disease - transmission
Mathematical model
Mice
Models, Biological
Population Dynamics
Rodent
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container_end_page 32
container_issue
container_start_page 27
container_title Theoretical population biology
container_volume 116
creator Ferreri, Luca
Perazzo, Silvia
Venturino, Ezio
Giacobini, Mario
Bertolotti, Luigi
Mannelli, Alessandro
description Spirochetes belonging to the Borrelia burgdoferi sensu lato (sl) group cause Lyme Borreliosis (LB), which is the most commonly reported vector-borne zoonosis in Europe. B. burgdorferi sl is maintained in nature in a complex cycle involving Ixodes ricinus ticks and several species of vertebrate hosts. The transmission dynamics of B. burgdorferi sl is complicated by the varying competence of animals for different genospecies of spirochetes that, in turn, vary in their capability of causing disease. In this study, a set of difference equations simplifying the complex interaction between vectors and their hosts (competent and not for Borrelia) is built to gain insights into conditions underlying the dominance of B. lusitaniae (transmitted by lizards to susceptible ticks) and the maintenance of B. afzelii (transmitted by wild rodents) observed in a study area in Tuscany, Italy. Findings, in agreement with field observations, highlight the existence of a threshold for the fraction of larvae feeding on rodents below which the persistence of B. afzelii is not possible. Furthermore, thresholds change as nonlinear functions of the expected number of nymph bites on mice, and the transmission and recovery probabilities. In conclusion, our model provided an insight into mechanisms underlying the relative frequency of different Borrelia genospecies, as observed in field studies.
doi_str_mv 10.1016/j.tpb.2017.06.004
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subjects Animals
Borrelia
Borrelia afzelii
Borrelia burgdorferi Group
Borrelia lusitaniae
Europe
Feeding Behavior
Larva - microbiology
Lizard
Lizards
Lyme disease
Lyme Disease - transmission
Mathematical model
Mice
Models, Biological
Population Dynamics
Rodent
title Modeling the effects of variable feeding patterns of larval ticks on the transmission of Borrelia lusitaniae and Borrelia afzelii
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